Purpose. To determine the benzene metabolites in urine, including hydroquinone (HQ), catechol (CAT), muconic acid (MA) and phenol (PH) by high-performance liquid chromatography (HPLC). Methods. Urinary concentrations of these four benzene metabolites in 312 petrochemical plant workers were measured by HPLC. The limits of detection were 2.46 ng for HQ, 0.13 ng for MA, 2.34 ng for CAT and 9.69 ng for PH. Results. Reproducibility was tested at three concentrations (high, medium, low); the coefficient of variation (CV) was less than 8%. When PH was excluded, CV was 5%. Stability was tested at 4℃ and -20℃ over a period of 28 days. Stability of all four benzene metabolites was higher at -20℃ than at 4℃. Overall, there was a decline in stability over time with phenol being the least stable (40% at 28 days). Average recoveries were as follows: HQ=101.5%, CAT=102.9%, MA=103.9%, PH=107.5%. Urinary PH concentrations were highest, followed by CAT, HQ and MA. Multiple regression analysis revealed that levels of the urinary benzene metabolites were affected by smoking and exposure to benzene increased urinary CAT concentrations. Conclusions Petrochemical workers exposed to low-level benzene in petrochemical factories had slightly lower levels of benzene metabolites in urine compared with previous studies. Our findings showed that HPLC is a reliable and convenient method for the simultaneous determination of benzene metabolites in urine among workers exposed to low concentrations of benzene.